CN105445558A

CN105445558A - Method for detecting DC internal resistance of battery

Info

Publication number: CN105445558A
Application number: CN201510900279.3A
Authority: CN
Inventors: 蔡卓丽
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-12-08
Filing date: 2015-12-08
Publication date: 2016-03-30

Abstract

The invention discloses a method for detecting DC internal resistance of a battery. The method comprises: making the SOC of a lithium battery to be in the state of 50%; charging and discharging the lithium battery for a short time by 0.5C/1C/1.5C/2C/2.5C/3C/3.5C/4C respectively; selecting the discharging data for different multiplying powers, and taking a discharging current as the abscissa and the voltage when discharging of different currents is finished as the ordinate; and drawing a point diagram and using a least squares to fit the point diagram as one straight line, wherein the gradient of the straight line is the DC internal resistance of the lithium battery. The method for detecting DC internal resistance of a battery is simple and is short in time, and is accurate in the values after detection by means of combination of the discharging data for 8 different multiplying powers, and can eliminate abnormally high or low values caused by accidental factors, and can accurately reflect the impedance situation in the lithium battery.

Description

Detect the method for battery DC internal resistance

Technical field

The present invention relates to a kind of method detecting battery DC internal resistance.

Background technology

In the properties of lithium ion battery, internal resistance is one of important indicator evaluating battery performance.The inner walkway of lithium battery comprises AC internal Resistance and DC internal resistance.

AC internal Resistance is loaded on battery with the sinusoidal ac signal of 1KHz, obtains its internal resistance by measuring its interchange pressure drop.Its method of testing is simple, and the used time is short, can complete with internal resistance test device, so general AC internal Resistance evaluates the performance of battery.But AC internal Resistance can not the situation of accurate response battery impedance, in battery except the contact resistance of the materials such as positive and negative pole material, electrolytic solution, barrier film, battery container, also comprise positive and negative pole material reacts, lithium ion produces through electrolytic solution activation polarization internal resistance and concentration polarization internal resistance, these impedances total in direct-current discharge process, are called DC internal resistance.DC internal resistance can reflect the anti-truth of the internal resistance of cell.

The test of DC internal resistance has very important significance: the size of DC internal resistance and the rate charge-discharge performance of battery closely bound up, directly have influence on the height of platform during rate charge-discharge; The height of discharge platform when the size of DC internal resistance determines battery low temperature discharge; In addition, battery liquid-filling quantity not sufficient, lug broken belt, lug and conduction band rosin joint, conduction band and pole rosin joint etc., can be reflected by DC internal resistance value.

Summary of the invention

The present invention is directed to the critical role of test in Cell Performance Evaluation of DC internal resistance value, disclose a kind of method detecting battery DC internal resistance.

Technical scheme of the present invention is:

Detect a method for battery DC internal resistance, it is characterized in that, comprise the following steps:

(1) battery is full of electricity with 1/3C constant current constant voltage, the cut-off current of constant-voltage charge is 10% of initial charge current, shelves 30min, with 1/3C electric discharge 1.5h, shelves 30min;

(2) battery is with 0.5C constant-current charge certain time interval T;

(3) 10s is shelved;

(4) with 0.5C constant-current discharge certain time interval T, and discharge current I is recorded ₁, cell voltage U at the end of electric discharge ₁;

(5) 10s is shelved;

(6) battery performs above-mentioned steps (2) ~ (5) with 1C/1.5C/2C/2.5C/3C/3.5C/4C charging and discharging currents respectively, and records discharge current I respectively ₂~ I ₂, cell voltage U at the end of electric discharge ₂~ U ₂;

(7) 1min is shelved;

(8) one time is tested again by above-mentioned steps (2) ~ (6).

The computing method of described DC internal resistance are:

With current value I ₁~ I ₂for horizontal ordinate, corresponding magnitude of voltage U ₁~ U ₂for ordinate, draw the loose point curve figure of 8 points, fit to straight line, can obtain the slope of this straight line, the mean value of the slope of twice test is the DC internal resistance value of this lithium battery.

Described discharge and recharge certain time interval T must be identical in same one-time detection, and the span of T is 5s ~ 10s.

The method that described loose point curve fits to straight line is least square method.

The present invention has following beneficial effect:

(1) the DC internal resistance value of lithium battery is not a definite value, and it changes along with the change of battery electric quantity SOC, and we are reached a conclusion by test: when lithium battery SOC is between 30% ~ 80%, and the change of its DC internal resistance value is more steady.So, DC internal resistance value when the present invention selects test lithium battery SOC to be 50%, the DC internal resistance performance of this value to lithium battery has very large representativeness;

(2) traditional DC internal resistance method of testing is just got 2 different current values and is carried out constant-current discharge to lithium battery, then this internal resistance of cell value is calculated according to pressure reduction and difference between current, there is certain contingency in the method, the internal resistance value drawn might not be very accurate.The present invention carries out the discharge and recharge of 8 different multiplying to lithium battery, charging and discharging currents value and discharge and recharge time all select the best by test, then these 16 points are utilized to draw loose point curve figure, fit to straight line, the slope of cut-off line, the value that the method obtains can get rid of some high level recorded due to accidentalia or low value, more can go out the true internal resistance value of lithium battery by accurate response;

(3) the inventive method is simple, and the used time is short, and is applicable to the lithium battery of all kinds different capabilities, applied widely.

Accompanying drawing explanation

Fig. 1 is electric current and the voltage curve figure of the embodiment of the present invention 1 the 1st test;

Fig. 2 is electric current and the voltage curve figure of the embodiment of the present invention 1 the 2nd test;

Fig. 3 is electric current and the voltage curve figure of the embodiment of the present invention 2 the 1st test;

Fig. 4 is electric current and the voltage curve figure of the embodiment of the present invention 2 the 2nd test.

Embodiment

Below by embodiment, the present invention will be further described in detail.

Embodiment 1

The present embodiment selects 40Ah square aluminum hull LiFePO4 laminated batteries, and testing procedure is as follows:

(1) by battery with 13.3A constant-current charge to 3.6V, then 3.6V constant-voltage charge is down to 1.3A to electric current, shelves 30min, to discharge 1.5h, shelve 30min with 13.3A;

(2) battery is with 20A constant-current charge 10s;

(3) 10s is shelved;

(4) with 20A constant-current discharge 10s, and discharge current I is recorded ₁, cell voltage U at the end of electric discharge ₁;

(5) 10s is shelved;

(6) battery performs above-mentioned steps (2) ~ (5) with 40A/60A/80A/100A/120A/140A/160A charging and discharging currents respectively, and records discharge current I respectively ₂~ I ₂, cell voltage U at the end of electric discharge ₂~ U ₈;

(7) 1min is shelved;

(8) one time is tested again by above-mentioned steps (2) ~ (6).

After having tested, 2 times test electric current and electric discharge at the end of magnitude of voltage as shown in table 1 below:

Table 1 embodiment 1 electric current and magnitude of voltage

2 groups of data are drawn as scatter diagram respectively, and as depicted in figs. 1 and 2, be two straight lines with least square fitting, the slope of two straight lines is respectively 0.000893 and 0.000899, so the test value of 2 DC internal resistances is respectively 0.89m Ω and 0.90m Ω.

Embodiment 2

The present embodiment selects 10Ah square aluminum hull ternary material winding battery, and testing procedure is as follows:

(1) by battery with 3.3A constant-current charge to 4.2V, then 4.2V constant-voltage charge is down to 0.33A to electric current, shelves 30min, to discharge 1.5h, shelve 30min with 3.3A;

(2) battery is with 5A constant-current charge 5s;

(3) 10s is shelved;

(4) with 5A electric discharge 5s, and discharge current I is recorded ₁, cell voltage U at the end of electric discharge ₁;

(5) 10s is shelved;

(6) battery performs above-mentioned steps (2) ~ (5) with 10A/15A/20A/25A/30A/35A/40A charging and discharging currents respectively, and records discharge current I respectively ₂~ I ₂, cell voltage U at the end of electric discharge ₂~ U ₂;

(7) 1min is shelved;

(8) one time is tested again by above-mentioned steps (2) ~ (6).

After having tested, 2 times test electric current and electric discharge at the end of magnitude of voltage as shown in table 2 below:

Table 2 embodiment 2 electric current and magnitude of voltage

2 groups of data are drawn as scatter diagram respectively, and as shown in Figure 3 and Figure 4, be two straight lines with least square fitting, the slope of two straight lines is respectively 0.00530 and 0.00524, so the test value of 2 DC internal resistances is respectively 5.30m Ω and 5.24m Ω.

In sum, the DC internal resistance detection method used time of the present invention is short, detects numerical value accurate, can get rid of the abnormal value higher or on the low side because accidentalia causes, and the DC internal resistance value detected can go out the impedance conditions of battery by accurate response.

Although working of an invention scheme is open as above, but it is not restricted to listed in instructions and embodiment utilization, it can be applied to various applicable the field of the invention completely, for those skilled in the art, can easily realize other amendment, therefore do not deviating under the universal that claim and equivalency range limit, the present invention is not limited to specific details and illustrates here and the proportioning example described.

Claims

1. detect a method for battery DC internal resistance, it is characterized in that, comprise the following steps:

(2) battery is with 0.5C constant-current charge certain time interval T;

(3) 10s is shelved;

(5) 10s is shelved;

(6) battery performs above-mentioned steps (2) ~ (5) with 1C/1.5C/2C/2.5C/3C/3.5C/4C charging and discharging currents respectively, and records discharge current I respectively ₂~ I ₈, cell voltage U at the end of electric discharge ₂~ U ₈;

(7) 1min is shelved;

(8) one time is tested again by above-mentioned steps (2) ~ (6).

2. detect the method for battery DC internal resistance as claimed in claim 1, it is characterized in that, the computing method of described DC internal resistance are:

With current value I ₁~ I ₈for horizontal ordinate, corresponding magnitude of voltage U ₁~ U ₈for ordinate, draw the loose point curve figure of 8 points, fit to straight line, can obtain the slope of this straight line, the mean value of the slope of twice test is the DC internal resistance value of this lithium battery.

3. detect the method for battery DC internal resistance as claimed in claim 1, it is characterized in that, described discharge and recharge certain time interval T must be identical in same one-time detection, and the span of T is 5s ~ 10s.

4. detect the method for battery DC internal resistance as claimed in claim 2, it is characterized in that, the method that described loose point curve fits to straight line is least square method.